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Science for the Public Lectures

Most Recent EpisodeScience for the Public Science Literacy Series: 01/30/18

Dr. Sandro Galea discusses the numerous socio-economic factors that impact health. He also provides some comparisons between the cost of health and the state of health between the U.S. and other wealthy nations.

Episodes

Dr. Sandro Galea discusses the numerous socio-economic factors that impact health. He also provides some comparisons between the cost of health and the state of health between the U.S. and other wealthy nations.

In this presentation Dr. Bose explains how the collider works and what the collisions produce. The 2010-2012 run brought confirmation of the long-sought Higgs boson. This time, with nearly double the collision energy (13 TeV) scientists anticipate some entirely new discoveries.

In this presentation Dr. Bose explains how the collider works and what the collisions produce. The 2010-2012 run brought confirmation of the long-sought Higgs boson. This time, with nearly double the collision energy (13 TeV) scientists anticipate some entirely new discoveries.

Origami is not limited to art. In this lecture, Dr. Mahadevan explains the geometrical basis of origami and how origami is widespread in structures throughout nature. He also shows the recent applications of origami in engineering and technology.

In this lecture, Dr. Greenhill describes the period of the early universe called the "Dark Age." The universe had become transparent, but there was no visible light because. By probing this era with radio telescopes astronomers have recently begun to test theories about this mysterious era, when stars and galaxies were just forming.

The U.S. wastes two-thirds of its energy, including 80 percent of the energy used in transportation. As Dr. Prentiss demonstrates in her book, Energy Revolution: The Physics and Promise of Efficient Energy Harvard Press: 2015), conversion to wind and solar power could generate 100 percent of the United States average total energy demand for the foreseeable future. She discusses how these technologies work and how they can be phased in quickly.

From Ebola to MERS and SARS, familiar and previously unknown viruses are migrating across borders and around the globe in our highly connected world. The emergence of new viral diseases underscores humanity’s continuing vulnerability. How different viruses are transmitted, how infections are recognized and how outbreaks can be contained are the concerns of the John Connor Lab at Boston University. Dr. Connor explains virus infections and how medical research and new technologies are working to control the health threat of viruses.

Despite decades of research, there is still uncertainty about the biological mechanism that triggers cancer. There are several rival hypotheses, and genuine progress in cancer research will depend on determining the correct one. In this presentation, Drs. Soto and Sonnenschein explain the major cancer theories and how the differences impact research.

Origami is not limited to art. In this lecture, Dr. Mahadevan explains the geometrical basis of origami and how origami is widespread in structures throughout nature. He also shows the recent applications of origami in engineering and technology.

In this lecture, Dr. Greenhill describes the period of the early universe called the "Dark Age." The universe had become transparent, but there was no visible light because. By probing this era with radio telescopes astronomers have recently begun to test theories about this mysterious era, when stars and galaxies were just forming.

The U.S. wastes two-thirds of its energy, including 80 percent of the energy used in transportation. As Dr. Prentiss demonstrates in her book, Energy Revolution: The Physics and Promise of Efficient Energy Harvard Press: 2015), conversion to wind and solar power could generate 100 percent of the United States average total energy demand for the foreseeable future. She discusses how these technologies work and how they can be phased in quickly.

From Ebola to MERS and SARS, familiar and previously unknown viruses are migrating across borders and around the globe in our highly connected world. The emergence of new viral diseases underscores humanity’s continuing vulnerability. How different viruses are transmitted, how infections are recognized and how outbreaks can be contained are the concerns of the John Connor Lab at Boston University. Dr. Connor explains virus infections and how medical research and new technologies are working to control the health threat of viruses.

Despite decades of research, there is still uncertainty about the biological mechanism that triggers cancer. There are several rival hypotheses, and genuine progress in cancer research will depend on determining the correct one. In this presentation, Drs. Soto and Sonnenschein explain the major cancer theories and how the differences impact research.

Science for the Public Lectures is produced by Yvonne Stapp, PhD, a BMC member and president of Science for the Public, a Belmont-based non-profit whose mission is "to improve understanding of and appreciation for science in the adult community."